Monica Pizzuto scite author profile

Monica Pizzuto

3Publications

8Citation Statements Received

27Citation Statements Given

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Mater Dei Hospital, University of Malta, St. Luke's Hospital

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The β⁺ IVS, I‐NT no. 6 (T→C) thalassaemia in heterozygotes with an associated Hb Valletta or Hb S heterozygosity in homozygotes from Malta

et al. 1993

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In vitro DNA amplification and dot blot analysis with synthetic allele specific oligonucleotides (ASO) identified the beta + IVS, I-6 (T --> C) thalassaemia in 78% of 32 chromosomes from 16 beta-thalassaemia homozygotes in Malta. The preponderance of a single thalassaemia mutation in one population is unusual. The beta + IVS, I-6C thalassaemia mutation was also found in three carriers who had an associated beta globin heterozygosity, i.e. Hb Valletta (or alpha 2 beta 2 87PRO) or Hb S (or alpha 2 beta 2 6VAL). The proportion of Hb A in these cases (av. = 29.7%) provided objective documentation of the relatively mild effect of this mutation on in vivo globin gene expression. However, the expression of homozygous disease was more severe in developing children compared to adults. The beta + IVS, I-6C mutation complicates population testing because heterozygotes can have Hb A2 levels below those classically associated with beta thalassaemia.

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A Review ofCis-TransInterplay Between DNA Sequences 5′ to the^Gγ- and β-Globin Genes Among Hb F-Malta-I Heterozygotes/Homozygotes and β-Thalassemia Homozygotes/Compound Heterozygotes, and the Effects of Hydroxyurea on the Hb F/F-Erythrocyte; the Need for Large Multicenter Trials

et al. 2007

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The biosynthesis of Hb F in place of the deficient Hb A could be a suitable treatment for beta hemoglobinopathies. Among newborn Hb F-Malta-I heterozygotes, it could be shown that the XmnI sequence alone had little, if any effect on gamma-globin gene expression, but interplay with the (AT)(X)T(Y) sites in cis and in trans may occur. In contrast, while the XmnI sequence is clearly correlated with gamma-globin levels in anemic adult beta-thalassemia (thal) homozygotes, the effect on F-erythrocyte numbers and Hb F/F-erythrocyte appears independent of the (AT)(X)T(Y) sites. Even at levels of hydroxyurea (HU) as low as 1.65 mg/kg/day (vs. 10 mg/kg/day on the high dose regime) it can be shown that although even a small increase of Hb F could be obtained, the effect was rarely translated into an increase in circulating hemoglobin (Hb). In most cases, the elevated Hb F level was dependent on the XmnI sequence and was due to increased numbers of F-erythrocytes or Hb F/F-erythrocyte or both. It seems that the bone marrow of thalassemia homozygotes may be more sensitive to myelosuppression by HU possibly due to medullary inflammation. While the data are consistent with loop models of globin switching mechanisms, there is urgent need for large, hypothesis driven, multicenter trials of molecules that could maintain or re-induce high Hb F levels in beta-thal and subject to genetic and epigenetic constraints including inflammation.

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Hb Valletta [β87(F3)Thr→Pro] and Hb Marseille/Long Island [β2(NA2)His→Pro; (–1)Met-(+1)Val-(+2)Pro-Leu], in a Unique Compound Heterozygote with a Normal Hemoglobin Phenotype

et al. 2010

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This study refers to the quantitative hemoglobin (Hb) phenotype of a 19-year-old female with Hb Valletta [beta87(F3)Thr-->Pro] in association with Hb Marseille/Long Island [beta2(NA2)His-->Pro; (-1)Met-(+1)Val-(+2)Pro-Leu] and a normal Hb electrophoretogram. The data serve to alert investigators to the possibility that relatives with apparently normal Hb phenotypes may be transmitting mutant alleles and suggest methods for identification.

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Monica Pizzuto

The β⁺ IVS, I‐NT no. 6 (T→C) thalassaemia in heterozygotes with an associated Hb Valletta or Hb S heterozygosity in homozygotes from Malta

A Review ofCis-TransInterplay Between DNA Sequences 5′ to the^Gγ- and β-Globin Genes Among Hb F-Malta-I Heterozygotes/Homozygotes and β-Thalassemia Homozygotes/Compound Heterozygotes, and the Effects of Hydroxyurea on the Hb F/F-Erythrocyte; the Need for Large Multicenter Trials

Hb Valletta [β87(F3)Thr→Pro] and Hb Marseille/Long Island [β2(NA2)His→Pro; (–1)Met-(+1)Val-(+2)Pro-Leu], in a Unique Compound Heterozygote with a Normal Hemoglobin Phenotype

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Monica Pizzuto

The β+ IVS, I‐NT no. 6 (T→C) thalassaemia in heterozygotes with an associated Hb Valletta or Hb S heterozygosity in homozygotes from Malta

A Review ofCis-TransInterplay Between DNA Sequences 5′ to theGγ- and β-Globin Genes Among Hb F-Malta-I Heterozygotes/Homozygotes and β-Thalassemia Homozygotes/Compound Heterozygotes, and the Effects of Hydroxyurea on the Hb F/F-Erythrocyte; the Need for Large Multicenter Trials

Hb Valletta [β87(F3)Thr→Pro] and Hb Marseille/Long Island [β2(NA2)His→Pro; (–1)Met-(+1)Val-(+2)Pro-Leu], in a Unique Compound Heterozygote with a Normal Hemoglobin Phenotype

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Product

Resources

About

The β⁺ IVS, I‐NT no. 6 (T→C) thalassaemia in heterozygotes with an associated Hb Valletta or Hb S heterozygosity in homozygotes from Malta

A Review ofCis-TransInterplay Between DNA Sequences 5′ to the^Gγ- and β-Globin Genes Among Hb F-Malta-I Heterozygotes/Homozygotes and β-Thalassemia Homozygotes/Compound Heterozygotes, and the Effects of Hydroxyurea on the Hb F/F-Erythrocyte; the Need for Large Multicenter Trials